Biomechanics of the Aorta

Biomechanics of the Aorta

Modeling for Patient Care

Avril, Stephane; Gasser, T. Christian; Elefteriades, John A.

Elsevier Science & Technology

06/2024

634

Dura

Inglês

9780323954846

15 a 20 dias

Descrição não disponível.
PART 1 Anatomy, biology, physiopathology 1. Physiopathology 2. Genetics of aortic disease 3. Mechanobiology of aortic cells and extracellular matrix 4. Clinical treatment options PART 2 Imaging and tissue/rheology characterization 5. Novel experimental methods to characterize the mechanical properties of the aorta 6. Imaging aortic flows in 4D using MRI 7. Ultrasound imaging for aortic biomechanics 8. Functional imaging, focus on [18F]FDG positron emission tomography 9. Image processing: Deep learning for aorta model reconstruction PART 3 Tissue modeling and rupture 10. On simulation of the biophysical behavior of the aortic heart valve interstitial cell 11. Abdominal Aortic Aneurysm and thrombus modeling 12. Computational modeling of aneurysm growth in mechanobiology 13. Analysis of aortic rupture: A computational biomechanics perspective 14. Multiscale modeling of aortic mechanics: Tissue, network, and protein PART 4 Flow modeling and algorithm 15. Multiphysics flow modeling in the aorta 16. Novel Approaches for the numerical solution of fluid-structure interaction in the Aorta 17. Turbulence modeling of blood flow 18. Inverse problems in aortic flow modeling 19. Modeling of flow induced mechanosignaling 20. Reduced order modeling of cardiovascular hemodynamics PART 5 Applications 21. Transcatheter aortic valve implantation (TAVI) 22. Abdominal Aortic Aneurysm rupture prediction 23. (T)EVAR simulation 24. Fluid Structure Interaction (FSI) in aortic dissections 25. Pharmacological treatments, mouse models, and the aorta
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Cardiovascular diseases; Vascular biology; Atherosclerosis; Mechanobiology; Vascular biomechanics; Constitutive modelling; Soft tissue rupture; Computational Fluid Dynamics (CFD); Fluid Structure Interaction (FSI); Turbulence modelling; Aneurysm; Aortic valve; Aortic rupture; Finite elements modelling; imaging techniques; Clinical imaging; Aortic repair; Endovascular aortic repair (EVAR); Artificial Intelligence (AI)